Agricultural disc mounting system and method

ABSTRACT

A disc mounting system includes the attachment of each disc to a disc gang bar via a dedicated leaf spring. Each of the leaf springs, which can be generally U shaped, are attached at a top end to the gang bar and at a lower leg to a disc spindle such that the disc is positioned at least partially alongside the spring lower leg. The mounting system allows the disc to deflect vertically, laterally or torsionally when the disc encounters an obstacle. An optional shield can be attached to the leaf spring to prevent soil and debris thrown out by adjacent discs from entering the spring. A disc scraper blade can also be attached to the shield.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates generally to a disc mounting system andmethod for attaching disc blades to an agricultural implement, such as adisc-ripper, and, more particularly, to such a mounting system andmethod in which each disc in at least the front disc gangs on theimplement is mounted to a gang bar via a respective individual leafspring. This allows each disc to individually move vertically, laterallyand torsionally to relieve stress on the disc blade when an obstacle isencountered.

2. Description of the Related Art

Modern frames are faced with a variety of problems, including increasedconcern for soil erosion, crop residue management and rising productioncosts with stagnant crop prices. One way farmers are successfullyaddressing each of these concerns is to reduce, as far as possible, thenumber of passes which a farmer must make over his fields. In corngrowing operations, after the corn is harvested, it is important for thefarmer to conduct fall tillage to bury the crop residue from theharvested crop and to break up sub-soil compaction in preparation forspring planting. In order to accomplish both of these tasks in a singlepass, disc-ripper implements have been developed. Typically a discripper has a pair of disc gangs mounted on the front of the implementwith the gangs angled inward and rearward toward each other. The frontdisc gangs are mounted ahead of a number of ripper shanks distributedacross the implement. Following the ripper shanks are another pair ofdisc gangs which are angled inward and forward toward each other.

These disc-rippers, which must be pulled by a large, high horsepowertractor, utilize the front disc gangs to bury the majority of the cropresidue. The trailing ripper shanks serve to break up the sub-soilcompaction and the trailing rear disc gangs are then used primarily tolevel any ridges created by the ripper shanks. One of the advantages ofa disc-ripper implement is the tendency of the ripper shanks to drivedeep into the soil, which makes the entire implement stay in the groundand work the soil consistently. At the same time, the discs are pulleddown into the soil by the action of the ripper shanks, which causes themto be consistently buried and working as well. This means that theimplement will also tend to stay in the soil and not ride up and overobstacles, such as rocks or extreme hard spots. This means that somerelief must be afforded to the disc gangs, particularly on the front ofthe implement, to prevent the disc mounts from being damaged or the discblades from being bent or broken as they encounter these obstacles.

In order to address these needs, prior art disc-rippers have attachedthe discs in a number of different ways. Often the discs are gangedtogether spindle to spindle and the entire interconnected gang isattached to a gang bar via spring mounts, such as U or C shaped leafsprings or compression coil springs. A problem with this arrangement isthe requirement for the entire disc gang to ride up and out of theground when any of the discs encounters an obstacle, which can result inbroken individual discs in the gang and/or large undisced gaps in thefield as the entire gang rides up and out of the soil and then settlesback down into the soil.

In order to counteract these problems, it is known to provide individualspindle arms for each disc, with each arm having its own compressionspring. This arrangement allows each disc in a gang to individually flexbackward and upward through an arc dictated by the length of the arm.While this arrangement is an improvement on ganged discs, the discs arerequired to travel through a relatively long arc in order to clear anobstruction. In addition, if the obstacle encountered is slightly offcenter of the disc travel, a large amount of side load can be impartedto the disc, often resulting in bending or twisting of the arm, damageto the disc spindle or bearings or even breakage of the disc blade.

At least one prior art attempt has been made to attach individual discsto an implement via respective leaf springs. U.S. Pat. No. 2,750,861 toRobert Erwin, and entitled Mounting for Disc Type Soil Working Tools, isdirected to such an arrangement. In the Erwin patent, a substantially Ushaped leaf spring is attached, at an upper leg, to a seed hopper and,at a lower leg, to a disc mounting bracket. However, the leaf spring inErwin extends across the top of the respective disc and extends at aconsiderable angle with respect to the path of travel of that disc. Thisarrangement allows the disc to be vertically deflected, but,intentionally, acts to restrain any lateral or twisting motion of thespring and disc. Thus, the Erwin leaf spring mounting system suffersfrom the same shortcomings as the coil spring mount described above.

It is clear then, that a need still exists for a disc mounting mechanismfor ganged disc implements and disc-rippers which allows each individualdisc freedom to move away from obstacles and hard spots. Such a discmounting mechanism should preferably allow each disc to individuallymove vertically, laterally and torsionally to avoid obstacles withoutdamage to the disc and mounting mechanism. The disc mounting mechanismshould also allow debris and trash to freely flow through the discswithout impeding the operation of the implement.

SUMMARY OF THE INVENTION

In the practice of the present invention, an agricultural implement,such as a disc-ripper, has front and rear pairs of disc gangs, each ofwhich has a disc gang bar. Each disc in at least the front disc gangpairs is individually attached to the respective disc gang bar via adedicated leaf spring. Each of the leaf springs, which can be generallyU shaped, are attached, via an upper leg, to the gang bar and, via alower leg, to a disc spindle. The leaf springs can either extendstraight down from the gang bar or be laterally offset, but arepreferably laterally offset, following the concavity of the disc mountedthereon. This allows for better residue flow through the discs. The leafsprings are also preferably mounted parallel to the cutting edge of theattached disc. This position provides for increased lateral flexibilityas well as for the most efficient residue flow around the discs. Thebottom end of each leaf spring is bolted or otherwise attached to aweldment which includes a disc spindle. The bolting of each disc spindleto a respective leaf spring allows quick and easy replacement of thespindle in the event of damage. The welded spindle preferably is set atan angle such that the bottom of an attached disc blade runs outwardfrom the top of that blade. This allows soil and residue to flow out theback of the disc instead of being carried up and over the top of thespindle. An optimum angle for these spindles appears to be about 8degrees from horizontal, but a range of 3 to 15 degrees is possible. Anoptional shield can be installed on each leaf spring which shield isattached to the top of the spring and covers the side and rear openingsof the U shaped spring. The shield prevents soil and residue from beingthrown into the spring from the concave side of the neighboring disc. Byattaching the shield only at the top of the spring, the spring is freeto move but the over-sized shield still acts to prevent residue and soilfrom entering the spring openings. A scraper can be attached to theshield. Finally, in an alternative embodiment, a disc spindle can beinserted directly through a bore extending through the spring lower leg.

OBJECTS AND ADVANTAGE OF THE PRESENT INVENTION

The objects and advantages of the present invention include: providingan improved agricultural disc mounting system and method; providing sucha mounting system and method in which each disc is attached to a discgang bar via a respective individual leaf spring; providing such asystem and method in which each leaf spring is arranged roughly in aU-shape with an upper leg attached to the disc bar and a lower legattached to a disc spindle; providing such a disc mounting system andmethod in which individual discs are permitted to flex vertically,laterally and torsionally to relieve stress on the disc blade when anobstacle is encountered; providing such a mounting system and methodwhich allows efficient flow through of soil and residue through thediscs; providing such a mounting system and method in which individualsprings are provided with shields to prevent soil and residue from beingthrown into the spring from adjacent discs; providing such a discmounting system which is more efficient and better designed foroperation in rough terrain and wet soil conditions than prior artmounting systems and methods; and providing such a disc mounting systemand method which is efficient and convenient in operation and which isparticularly well adapted for the proposed usage thereof.

Other objects and advantages of this invention will become apparent fromthe following description taken in conjunction with the accompanyingdrawings wherein are set forth, by way of illustration and example,certain embodiments of this invention.

The drawings constitute a part of this specification and includeexemplary embodiments of the present invention and illustrate variousobjects and features thereof.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a disc-ripper-disc agriculturalimplement with a pair of front disc gangs, each of which mount aplurality of discs in accordance with the inventive disc mounting systemand method.

FIG. 2 is a fragmentary, side elevational view of a prior art discmounting system using individual coil spring loaded arms, andillustrating a down position in solid lines and a deflected position indotted lines.

FIG. 3 is a greatly enlarged, fragmentary perspective view of a portionof the implement of FIG. 1, illustrating a pair of discs attached to agang bar using the inventive attachment system and method, with themounting system shown without an optional shield for ease ofillustration.

FIG. 4 is a greatly enlarged side elevational view of a disc mounted viathe inventive disc mounting system and method, illustrating, in dottedlines, vertical deflection of the disc and spring.

FIG. 5 is a greatly enlarged rear elevational view of a disc mounted viathe inventive disc mounting system and method, illustrating, in dottedlines, lateral deflection of the disc and spring.

FIG. 6 is a greatly enlarged rear elevational view of a disc mounted viathe inventive disc mounting system and method, illustrating, in dottedlines, torsional deflection of the disc and spring.

FIG. 7 is an exploded, perspective vis of a disc and inventive discmounting system, illustrating an optional shield and scraper blade.

FIG. 8 is a perspective view of a disc attached to an alternativeembodiment of leaf spring which integrally incorporates a horizontalbore to directly receive a disc spindle.

FIGS. 9, 10, 11, and 12 are respective different spring configurationsusable with the inventive disc mounting system and method.

DETAILED DESCRIPTION OF THE

PREFERRED EMBODIMENTS I. Introduction and Environment

As required, detailed embodiments of the present invention are disclosedherein; however, it is to be understood that the disclosed embodimentsare merely exemplary of the invention, which may be embodied in variousforms. Therefore, specific structural and functions details disclosedherein are not to be interpreted as limiting, but merely as a basis forthe claims and as a representative basis for teaching one skilled in theart to variously employ the present invention in virtually anyappropriately detailed structure.

Certain terminology will be used in the following description forconvenience and reference only and will not be limiting. For example,the words “up”, “down”, “right” and “left” will refer to directions inthe drawings to which reference is made. The words “in” and “out” willrefer to directions toward and away from, respectively, the geometriccenter of the structure being referred to. Said terminology will includethe words specifically mentioned derivatives thereof and words ofsimilar import.

II. Prior Art

Referring to the drawings in more detail, and with particular referenceto FIG. 2, a prior art individual disc mounting system is illustrated.In this prior art system, each disc 1 is attached to a disc gang bar 2via a mounting mechanism, generally indicated at 3. The mountingmechanism 3 includes a spindle 4 to which the disc 1 is attached via abearing 5. The spindle 4 is rotatably attached to a swing arm 11 which,in turn, is pivotably attached to a mounting bracket 12. The bracket 12is attached to the gang bar 2 via a pair of U shaped, threaded rods 13which wrap around the gang bar 2 and which extend through respectivebores in the bracket 12 with respective nuts 14 acting to hold them inplace. A spring shaft 15 is pivotally attached at one end to a pair ofears 16 extending outward from the swing arm 11, extends through a borein a plate 21 which extends downward from the bracket 12, and through acoil spring 22, a cup shaped flange 23, a washer 24 and terminates in athreaded nut 25.

In the prior art mounting system 3, the spring 22 acts to pull the swingarm 11, and the attached disc 1, forward to an operating position, asshown in solid lines in FIG. 2. When the disc 1 strikes an obstacle,such as a rock or other obstruction, the disc 1 will be forced backwardagainst the action of the spring 22 to the position indicated in dottedlines in FIG. 2. This action does work somewhat to protect the disc 1and other components from breakage when the obstacle as encountered inline with the direction of travel of the disc 1. However, when anobstacle is encountered which is positioned even slightly to the side ofthe disc travel direction, a large amount of side load is imparted tothe disc 1, which, even with the relief provided by the spring 22, canbend or twist the swing arm 11, damage the spindle 4 and associatedbearings, or even break the disc 1.

III. Inventive Disc Mounting System and Method

FIG. 1 illustrates an agricultural disc-ripper-disc implement, generallyindicated at 31. The implement 31 includes a pair of front disc gangs 32and 33 and a pair of rear disc gangs 34 and 35, each of which includes arespective disc gang bar 40 which is supported by a transverse, angleddisc gang support arm 41. The front disc gangs 32 and 33 are preferablypositioned at respective converging angles which extend inward andrearward from outside to inside, while the rear disc gangs 34 and 35 arepreferably positioned at respective converging angles which extendinward and forward from outside to inside. Each disc gang 32-35 supportsa plurality of disc blades 42.

The implement 31 includes a frame including four longitudinal framemembers 43 interconnected by, in addition to the disc support arms 41, afront transverse frame member 44, a transverse wheel support framemember 45, an angled transverse frame member 51 and a short,intermediate transverse frame member 52. A pair of torque tubes 53 areconnected to a respective pair of tandem wheels 54 which support theimplement 31 as well as providing depth adjustment, in a known manner.

A plurality of ripper shanks 55 are attached, at various positions alongthe transverse frame members 45, 51, and 52 via respective spring loadedautomatic shank resets 61. The ripper shanks 55 are thus positionedbetween the front disc gangs 32 and 33 and the rear disc gangs 34 and35. The disc-ripper-disc arrangement of the implement 31 is designed toutilize the disc blades 42 in the front disc gangs 32 and 33 to bury themajority of crop residue in a field. The trailing ripper shanks 55 serveto break up any sub-soil compaction and the disc blades 42 within thetrailing disc gangs 34 and 35 are used primarily to level any ridgescreated by the ripper shanks 55. As stated earlier, the ripper shanks 55tend to drive deep into the soil, which pulls the disc blades 42 in thefront and rear disc gangs 32-35 down into the soil by the action of theripper shanks 55, which causes the disc blades 42 to be consistentlyburied and working as well. This means that the implement 31 will tendto stay in the soil and not ride up and over obstacles, such as rocks orextreme hard spots. With this arrangement, it is important that the discblades 42, particularly on the front disc gangs 32 and 33 beindividually, resiliently mounted to their respective gang bars 40 toprevent the disc blades 42 and mounts from being damaged or broken.However, the prior art individual disc mounting system, as illustratedin FIG. 2, is inadequate for the reasons stated earlier.

The inventive disc mounting system is better illustrated in FIGS. 3-7,and is generally indicated at 61. Only a portion of the left disc gangbar 32 is illustrated, it being understood that the right disc gang baris a mirror image thereof. In the mounting system 61, each front discblade 42 is attached to a disc spindle 62, which is attached to aweldment 63 with a generally horizontal plate 64. The plate 64 is boltedto a bottom side of a lower leg 65 of a U shaped leaf spring 70 with aclosed end 71 of the “U” facing forward. An upper leg 72 of the spring70 is attached to the disc gang bar 40 by sandwiching it between a pairof clamping plates 73 and 74. The clamping plates, in turn, are attachedto the disc gang bar 40 via a plurality of bolts 75 which extend upwardon either side of the bar 32 and through the top clamping plate 73, andwhich are secured in place by a like plurality of nuts 76. One of thebolts 75 preferably extends through a bore in the spring upper leg 72.

The upper leg 72 of the spring 70 of the spring 70 is preferably offsetfrom the lower leg 65, the closed end 71 of the spring 70 extendsdownward at an angle with respect to vertical, as shown in FIG. 5, whichangle approximately follows the concavity of the disc blade 42. Thisoffset angle allows for better residue flow between adjacent disc blades42. The disc spindles 62 are mounted in a range of ¼ of 1 times thediameter of the disc blade 42 away from the front of the spring closedend 71. The disc spindles 62 are preferably positioned at an angle withrespect to horizontal to allow the bottom of each disc blade 42 to runoutward with respect to the top of that disc blade 42. This allows soiland residue to flow out the back of the disc blade 42 rather than beingcarried up and over the spindle 62. By contrast, if the spindle wereperfectly horizontal, the concavity of the disc blades 42 would tend tohold the soil and residue in and bring it up and over the top of the huband spindle, resulting in “plugging” of the discs. An optimum angle forthe spindles 62 has been found to be approximately eight degrees, but arange of 5 degrees either side of that can be effective as well.

Referring to FIG. 7, a shield 81 is formed from a single plate which isbent to include a large side covering portion 83, a rear coveringportion 84 and a top, attachment portion 85 with a plurality ofattachment bores 91 extending there through. Each shield 81 can beattached to a respective spring 70 by extending the bolts 75 through theattachment bores 91 prior to securing them via the nuts 76. The shield81 is thus secured to the spring 70 only at the top thereof, whichallows the spring 70 to freely flex, but the shield 81 is stillmaintained in covering relation with a spring side opening 92 and frontopening 93. A contoured scraper blade 94 can be attached to the rearcovering portion 84 of the shield 81 via threaded bores 95 in the rearcovering portion 84. The scraper blade 94 acts to scrape the concavesurface of the disc blade 42 as it rotates.

IV. Operation of the Disc Mounting System and Method

Referring to FIGS. 4-6, a number of different disc deflection positionsare schematically illustrated. FIG. 4 illustrates a disc blade 42 andspring 70 in solid lines in a working position and, in dotted lines,flexing vertically. Thus, if the disc blade 42 encounters an obstacledirectly in it's path, it has the freedom to deflect vertically toprevent damage. FIG. 5 illustrates the disc blade 42 and spring 70 insolid lines in a working position and, in dotted lines, flexinglaterally. Thus, if the disc blade 42 encounters a large obstacle whichis positioned to one side or the other, or encounters other difficultsituations, such as wet soil conditions, it has the freedom to deflectlaterally to prevent damage. Finally, FIG. 6 illustrates the disc blade42 and spring 70 in solid lines in a working position and, in dottedlines, flexing torsionally. Thus, if the disc blade 42 encounters anobstacle which is positioned such that just the lower portion of thedisc blade 42 is forced sideways, it has the freedom to deflecttorsionally to prevent damage. Of course, FIGS. 4-6 show simplisticdeflection positions for ease of illustration, but any combination ofvertical, lateral and/or torsional deflection can be accommodated in onemotion by the inventive disc mounting system 61.

V. Alternative Embodiments of the Disc Mounting System and Method

FIG. 8 illustrates an alternative embodiment of U shaped spring 101which includes an upper leg 102 which is essentially identical to theupper leg 72 of the spring 70. The spring 101 also includes a closed end103 and a lower leg 104 which lower leg 104 includes a taper 105 whichresults in a substantially vertical spindle receiving portion 111. Thespindle receiving portion 111 includes a through bore 112 which is sizedto receive a modified disc spindle 113. The disc spindle 113 includes acircular collar 115 which abuts the spring spindle receiving portion 111on one side thereof and the spindle 113 is threaded so as to receive asecuring nut 121 on the opposite side of the spindle receiving portion111 to secure the spindle 113 in position. The through bore 112 canextend through the spindle receiving portion 111 of the spring 101 at anangle with respect to horizontal, e.g. approximately eight degrees, togive the spindle 113 and attached bearing 122 and disc blade 42 thepreferred angle, e.g. eight degrees, as previously mentioned.

FIGS. 9-12 illustrate a variety of alternative configurations of leafspring which are usable with the present invention. FIG. 9 illustrates aU shaped spring 131 generally consistent with the above description,i.e. with an upper leg 132 which is substantially the same length as alower leg 133. FIG. 10 illustrates a different U shaped spring 134 withan upper leg 135 which is substantially shorter than a lower leg 136. InFIG. 11, a spring 141 is essentially L shaped, with a lower leg 142attached to a disc spindle and a front leg 143 extending substantiallyvertically. Finally, FIG. 12 illustrates a shape somewhat between thatof FIG. 10 and FIG. 11, i.e. a spring 144 includes a lower leg 145 witha curved front leg 146 which extends upward and rearward at asubstantial angle with respect to vertical. Any of the shapesillustrated in FIGS. 9-12 can be used with the present invention, thecommon feature being attachment of a lower spring leg proximate a discspindle such that the disc is positioned alongside at least a portion ofthe lower spring leg.

Other variations on the inventive disc mounting system and method willoccur to those of ordinary skill in the art. For example, the implement31 has been illustrated and described as a disc-ripper-disc implement,but the disc mounting system is not limited to such an implement. Forexample, the disc mounting system can also be used effectively with animplement in which chisel shanks or other ground working tools aresubstituted for the ripper shanks 55. Furthermore, although only thefront discs 42 have been described as incorporating the inventivemounting system, if desired, both front and rear discs can be somounted. Accordingly, it is to be understood that while certain forms ofthe present invention have been illustrated and described herein, it isnot to be limited to the specific forms or arrangement of partsdescribed and shown.

1. An individual disc mounting system for an agricultural implementhaving a plurality of individual disc blades, the mounting systemcomprising: a. a leaf spring with an upper leg and a lower leg connectedby a closed end, said lower leg having a longitudinal axis and a bottomsurface generally parallel to said longitudinal axis; b. a mountingapparatus configured to attach said upper leg to the implement, suchthat said lower leg longitudinal axis is oriented generallyhorizontally, and c. a disc spindle apparatus attached to said leafspring lower leg such that said disc spindle apparatus extends outwardfrom said lower leg in a direction which is generally transverse to saidlower leg bottom surface, said disc spindle apparatus supporting abearing which accommodates only one of the individual disc blades suchthat the disc blade is positioned alongside a portion of said leafspring lower leg and is freely rotatable relative to said spring lowerleg, wherein positioning of said leaf spring at least partiallyalong-side the disc blade allows the disc blade to deflect vertically,horizontally and/or torsionally when it encounters an obstacle.
 2. Adisc mounting system as in claim 1, wherein said disc spindle apparatusis attached to said leaf spring lower leg such that said disc spindleapparatus is canted at an angle in the range of 3 to 13 degrees fromhorizontal.
 3. A disc mounting system as in claim 2, wherein said discspindle apparatus angle is approximately eight degrees from horizontal.4. A disc mounting system as in claim 1, wherein said leaf spring lowerleg includes a spindle mounting portion with a through bore extendingsubstantially horizontally there through.
 5. A disc mounting system asin claim 1, wherein said leaf spring is generally U shaped.
 6. Anagricultural disc mounting system for attaching individual disc bladesto an implement, comprising: a. a leaf spring with an upper leg and alower leg connected by a closed end, wherein said leaf spring closed endis canted at an angle with respect to vertical such that said upper legis offset with respect to said lower leg; b. a mounting apparatusconfigured to attach said upper leg to the implement; and c. a discspindle apparatus attached to said leaf spring lower leg such that saiddisc spindle apparatus extends outward from said lower leg, said discspindle apparatus supporting a bearing which accommodates one of theindividual disc blades such that the disc blade is positioned alongsidea portion of said leaf spring lower leg and is freely rotatable relativeto said spring lower leg, wherein positioning of said leaf spring atleast partially alongside the disc blade allows the disc blade todeflect vertically, horizontally and/or torsionally when it encountersan obstacle.
 7. A disc mounting system as in claim 6, wherein each saiddisc is formed with a concave outer surface and the angle of said leafspring closed end approximates the angle formed by the outer concavesurface of an attached disc.
 8. A disc mounting system as in claim 6,and further comprising a shield attached to the leaf spring, said shieldincluding a side covering portion which is positioned to cover a portionof a side opening of said leaf spring sufficient to keep soil andresidue from entering said side opening.
 9. A disc mounting system as inclaim 8, wherein said shield further includes a rear covering portionwhich covers a portion of a rear opening of said spring sufficient tokeep soil and residue from entering said rear opening.
 10. A discmounting system as in claim 8, and further comprising a disc scraperblade which is attached to said shield rear covering portion in aposition to scrape a concave side of the attached disc blade.
 11. Anagricultural implement including a plurality of front disc bladespositioned proximate a front end of the implement with the front discblades being spaced laterally across the implement, a plurality of reardisc blades attached to the implement proximate a rear end thereof, withthe rear disc blades also being spaced laterally across the implement,and a plurality of ground working tools having ripper shanks attached tothe implement with each of the ripper shanks being positionedintermediate the front and rear disc blades, the improvement comprisinga disc mounting system for attaching said disc blades to said implement,comprising: a. a leaf spring with an upper leg and a lower leg connectedby a closed end; b. a mounting apparatus configured to attach said upperleg to the implement; and c. a disc spindle apparatus attached to saidleaf spring lower leg such that said disc spindle apparatus extendsoutward from said lower leg, said disc spindle apparatus supporting abearing which accommodates only one of the disc blades such that thedisc blade is positioned alongside a portion of said leaf spring lowerleg and is freely rotatable relative to said spring lower leg, whereinpositioning of said leaf spring at least partially alongside the discblade allows the disc blade to deflect vertically, horizontally and/ortorsionally when it encounters an obstacle.
 12. A disc mounting systemas in claim 11, wherein said disc spindle apparatus is attached to saidleaf spring lower leg such that said disc spindle apparatus is canted atan angle in the range of 3 to 13 degrees from horizontal.
 13. Animplement as in claim 12, wherein said disc spindle apparatus angle isapproximately eight degrees from horizontal.
 14. An implement as inclaim 11, wherein said leaf spring lower leg includes a spindle mountingportion with a through bore extending substantially horizontally therethrough.
 15. An implement as in claim 11, wherein said leaf spring isgenerally U shaped.
 16. An agricultural implement including a pluralityof front disc blades positioned proximate a front end of the implementwith the front disc blades being spaced laterally across the implement,a plurality of rear disc blades attached to the implement proximate arear end thereof, with the rear disc blades also being spaced laterallyacross the implement, and a plurality of ground working tools havingripper shanks attached to the implement with each of the ripper shanksbeing positioned intermediate the front and rear disc blades, theimprovement comprising a disc mounting system for attaching at leastsaid front disc blades to said implement, comprising: a. a leaf springwith an upper leg and a lower leg connected by a closed end, whereinsaid leaf spring closed end is canted at an angle with respect tovertical such that said upper leg is offset with respect to said lowerleg; b. a mounting apparatus configured to attach said upper leg to theimplement; and c. a disc spindle apparatus attached to said leaf springlower leg such that said disc spindle apparatus extends outward fromsaid lower leg, said disc spindle apparatus supporting a bearing whichaccommodates one of the disc blades such that the disc blade ispositioned alongside a portion of said leaf spring lower leg and isfreely rotatable relative to said spring lower leg, wherein positioningof said leaf spring at least partially alongside the disc blade allowsthe disc blade to deflect vertically, horizontally and/or torsionallywhen it encounters an obstacle.
 17. An implement as in claim 16, whereineach said disc is formed with a concave outer surface and the angle ofsaid leaf spring closed end approximates the angle formed by the outerconcave surface of an attached disc.
 18. An implement as in claim 16,and further comprising a shield attached to the leaf spring, said shieldincluding a side covering portion which is positioned to cover a portionof a side opening of said leaf spring sufficient to keep soil andresidue from entering said side opening.
 19. An implement as in claim18, wherein said shield further includes a rear covering portion whichcovers a portion of a rear opening of said spring sufficient to keepsoil and residue from entering said rear opening.
 20. An implement as inclaim 18, and further comprising a disc scraper blade which is attachedto said shield rear covering portion in a position to scrape a concaveside of the attached disc blade.
 21. A method of mounting an individualdisc blade to an agricultural implement, comprising the steps of: a.providing a leaf spring with an upper leg and a lower leg connected by aclosed end, said lower leg having a longitudinal axis and a bottomsurface generally parallel to said longitudinal axis; b. mounting saidleaf spring upper leg to the implement, such that said lower leglongitudinal axis is oriented generally horizontally; and c. attaching adisc spindle apparatus to said leaf spring lower leg in a position suchthat said disc spindle apparatus extends outward from said lower leg ina direction which is generally transverse to said lower leg bottomsurface, said disc spindle apparatus supporting a bearing whichaccommodates only one disc blade such that the disc blade is positionedalongside a portion of said leaf spring lower leg and is freelyrotatable relative to said leaf spring lower leg.
 22. A method as inclaims 21, wherein said attaching step includes the step of attachingsaid disc spindle apparatus to said leaf spring lower leg such that saiddisc spindle apparatus is canted at an angle in the range of 3 to 13degrees from horizontal.
 23. A method as in claim 22, wherein said discspindle apparatus angle is approximately eight degrees from horizontal.24. A method of mounting a disc blade to an agricultural implement,comprising the steps of: a. providing a leaf spring with an upper legand a lower leg connected by a closed end; b. mounting said leaf springupper leg to the implement; c. attaching a disc spindle apparatus tosaid leaf spring lower leg in a position such that said disc spindleapparatus extends outward from said lower leg, said disc spindleapparatus supporting a bearing which accommodates one disc blade suchthat the disc blade is positioned alongside a portion of said leafspring lower leg and is freely rotatable relative to said leaf springlower leg; and d. attaching a shield to the leaf spring, said shieldincluding a side covering portion which is positioned to cover a portionof a side opening of said leaf spring sufficient to keep soil andresidue from entering said side opening and a rear covering portionwhich covers a portion of a rear opening of said spring sufficient tokeep soil and residue from entering said rear opening.
 25. A method asin claim 24, and further comprising the step of attaching a disc scraperblade to said shield rear covering portion in a position to scrape aconcave side of the attached disc blade.
 26. An agricultural discmounting system for attaching individual disc blades to an implement,comprising: a. a leaf spring with an upper leg and a lower leg connectedby a closed end, said leaf spring closed end being canted at an anglewith respect to vertical such that said upper leg is offset with respectto said lower leg; b. mounting apparatus configured to attach said upperleg to the implement; and c. a disc spindle apparatus attached to saidleaf spring lower leg such that said disc spindle apparatus extendsoutward from said lower leg, said disc spindle apparatus supporting abearing which accommodates only one of the individual disc blades suchthat the disc blade is positioned alongside a portion of said leafspring lower leg and is freely rotatable relative to said spring lowerleg, wherein positioning of said leaf spring at least partiallyalongside the disc blade allows the disc blade to deflect vertically,horizontally and/or torsionally when it encounters an obstacle.
 27. Adisc mounting system as in claim 26, wherein each said disc is formedwith a concave outer surface and the angle of said leaf spring closedend approximates the angle formed by the outer concave surface of anattached disc.
 28. An agricultural disc mounting system for attachingindividual disc blades to an implement, comprising: a. a leaf springwith an upper leg and a lower leg connected by a closed end; b. amounting apparatus configured to attach said upper leg to the implement;c. a disc spindle apparatus attached to said leaf spring lower leg suchthat said disc spindle apparatus extends outward from said lower leg,said disc spindle apparatus supporting a bearing which accommodates onlyone of the individual disc blades such that the disc blade is positionedalongside a portion of said leaf spring lower leg and is freelyrotatable relative to said spring lower leg, wherein positioning of saidleaf spring at least partially alongside the disc blade allows the discblade to deflect vertically, horizontally and/or torsionally when itencounters an obstacle; and d. a shield attached to the leaf spring,said shield including a side covering portion which is positioned tocover a portion of a side opening of said leaf spring sufficient to keepsoil and residue from entering said side opening.
 29. A disc mountingsystem as in claim 28, wherein said shield further includes a rearcovering portion which covers a portion of a rear opening of said springsufficient to keep soil and residue from entering said rear opening. 30.A disc mounting system as in claim 28, and further comprising a discscraper blade which is attached to said shield rear covering portion ina position to scrape a concave side of the attached disc blade.
 31. Animplement as in claim 11, wherein said leaf spring closed end is cantedat an angle with respect to vertical such that said upper leg is offsetwith respect to said lower leg.
 32. An implement as in claim 31, whereineach said disc is formed with a concave outer surface and the angle ofsaid leaf spring closed end approximates the angle formed by the outerconcave surface of an attached disc.
 33. An implement as in claim 11,and further comprising a shield attached to the leaf spring, said shieldincluding a side covering portion which is positioned to cover a portionof a side opening of said leaf spring sufficient to keep soil andresidue from entering said side opening.
 34. An implement as in claim33, wherein said shield further includes a rear covering portion whichcovers a portion of a rear opening of said spring sufficient to keepsoil and residue from entering said rear opening.
 35. An implement as inclaim 33, and further comprising a disc scraper blade which is attachedto said shield rear covering portion in a position to scrape a concaveside of the attached disc blade.
 36. A method of mounting a disc bladeto an agricultural implement, comprising the steps of: a. providing aleaf spring with an upper leg and a lower leg connected by a closed end;b. mounting said leaf spring upper leg to the implement; c. attaching adisc spindle apparatus to said leaf spring lower leg in a position suchthat said disc spindle apparatus extends outward from said lower leg,said disc spindle apparatus supporting a bearing which accommodates onlyone disc blade such that the disc blade is positioned alongside aportion of said leaf spring lower leg and is freely rotatable relativeto said leaf spring lower leg; and d. attaching a shield to the leafspring, said shield including a side covering portion which ispositioned to cover a portion of a side opening of said leaf springsufficient to keep soil and residue from entering said side opening anda rear covering portion which covers a portion of a rear opening of saidspring sufficient to keep soil and residue from entering said rearopening.
 37. A method as in claim 36, and further comprising the step ofattaching a disc scraper blade to said shield rear covering portion in aposition to scrape a concave side of the attached disc blade.
 38. Anagricultural implement including a gang of disc blades spaced laterallyacross the implement, each disc blade in said gang being individuallymounted to said implement by a disc mounting system comprising: a. aleaf spring with an upper leg and a lower leg connected by a closed end,said closed end being canted at an angle with respect to vertical suchthat said upper leg is offset with respect to said lower leg; b. amounting apparatus configured to attach said upper leg to the implement;and c. a disc spindle apparatus attached to said leaf spring lower legsuch that said disc spindle apparatus extends outward from said lowerleg, said disc spindle apparatus supporting a bearing which accommodatesonly one of the disc blades such that said only one of the disc bladesis positioned alongside a portion of said leaf spring lower leg and isfreely rotatable relative to said spring lower leg.